2% chlorhexidine gluconate aqueous versus 2% chlorhexidine gluconate in 70% isopropyl alcohol for skin disinfection prior to percutaneous central venous catheterisation: the ARCTIC randomised controlled feasibility trial

Objective Catheter-related sepsis (CRS) is a major complication with significant morbidity and mortality. Evidence is lacking regarding the most appropriate antiseptic for skin disinfection before percutaneous central venous catheter (PCVC) insertion in preterm neonates. To inform the feasibility and design of a definitive randomised controlled trial (RCT) of two antiseptic formulations, we conducted the Antiseptic Randomised Controlled Trial for Insertion of Catheters (ARCTIC) feasibility study to assess catheter colonisation, sepsis, and skin morbidity. Design Feasibility RCT. Setting Two UK tertiary-level neonatal intensive care units. Patients Preterm infants born <34 weeks’ gestation scheduled to undergo PCVC insertion. Interventions Skin disinfection with either 2% chlorhexidine gluconate (CHG)-aqueous or 2% CHG-70% isopropyl alcohol (IPA) before PCVC insertion and at removal. Primary outcome Proportion in the 2% CHG-70% IPA arm with a colonised catheter at removal. Main feasibility outcomes Rates of: (1) CRS, catheter-associated sepsis (CAS), and CRS/CAS per 1,000 PCVC days; (2) recruitment and retention; (3) data completeness. Safety outcomes Daily skin morbidity scores recorded from catheter insertion until 48 hours post-removal. Results 116 babies were randomised. Primary outcome incidence was 4.1% (95% confidence interval: 0.9% to 11.5%). Overall catheter colonisation rate was 5.2% (5/97); CRS 2.3/1000 catheter days; CAS 14.8/1000 catheter days. Recruitment, retention and data completeness were good. No major antiseptic-related skin injury was reported. Conclusions A definitive comparative efficacy trial is feasible, but the very low catheter colonisation rate would make a large-scale RCT challenging due to the very large sample size required. ARCTIC provides preliminary reassurance supporting potential safe use of 2% CHG-70% IPA and 2% CHG-aqueous in preterm neonates. Trial registration number ISRCTN82571474.


WHAT IS ALREADY KNOWN ON THIS TOPIC
⇒ Good skin disinfection is vital prior to central venous catheterisation to minimise risk of catheter colonisation and subsequent sepsis.⇒ The skin of preterm neonates is particularly vulnerable to antiseptic chemical burn injury.⇒ The most effective antiseptic for reducing risks of both catheter sepsis and skin harms in preterm neonates is unknown due to lacking clinical trial evidence.

WHAT THIS STUDY ADDS
⇒ The ARCTIC study provides contemporary evidence for rates of catheter-related infections associated with pre-procedural skin disinfection using topical 2% CHG-70% IPA and 2% CHGaqueous solutions.⇒ Use of 2% CHG-70% IPA for central venous catheterisation in preterm neonates is associated with a very low rate of catheter colonisation at catheter removal.⇒ The robust safety data obtained would support the use of these agents in a large comparative trial, with skin application adhering to strict guidelines.

HOW THIS STUDY MIGHT AFFECT RESEARCH, PRACTICE OR POLICY
The ARCTIC study results provide an accurate indication of the very large sample size that would be needed for a definitive comparative noninferiority antiseptic trial. copyright.
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Original research
complications that carry significant neonatal morbidity.][6][7] Reducing CRS remains a major goal of the NHS. 8Adoption of catheter care 'bundles' helps reduce CRS rates, 9 10 but with a multifactorial aetiology the goal of zero CRS still proves elusive. 11 12Individual components of bundles have rarely been rigorously studied through randomised controlled trials (RCTs) in neonates. 3 10 12One crucial component in preventing catheter infection is optimal antiseptic choice for pre-procedural skin disinfection of the catheter insertion site. 2 13 Studies in adults, including meta-analysis, show that alcohol-based antiseptics are superior for topical antisepsis. 14 15UK evidence-based guidelines in adults and older children recommend 2% chlorhexidine gluconate (CHG) in 70% isopropyl alcohol (2% CHG-70% IPA), 16 17 but they lack guidance on preferred antiseptic in preterm infants, reflecting the paucity of evidence and safety concerns specific to this population. 3 13 18Consequently, multiple different antiseptics, concentrations and combinations are in use in UK neonatal intensive care units (NICUs). 19 20o published RCT has so far examined the safety and efficacy of alcohol-based versus aqueous CHG formulations for skin antisepsis prior to PCVC insertion in preterm neonates.We therefore undertook the Antiseptic Randomised Controlled Trial for Insertion of Catheters (ARCTIC) feasibility study to inform the safety, design and scale of a potential large-scale multicentre RCT to determine whether 2% CHG-aqueous is non-inferior in antiseptic efficacy compared with 2% CHG-70% IPA for skin disinfection prior to PCVC insertion.

Study design and setting
A blinded parallel group feasibility RCT conducted in two UK tertiary-level NICUs: Norfolk and Norwich University Hospital, and Medway Maritime Hospital.

Participants
Preterm infants born at <34 weeks' gestation were eligible if they required PCVC insertion for parenteral nutrition.We excluded infants: unlikely to survive; with a life-threatening congenital abnormality or an underlying skin condition; who already had an indwelling PCVC or were previously enrolled; with a new episode of suspected sepsis with commencement of antibiotics within the previous 48 hours; with a positive blood culture (BC) within the previous 7 days without a subsequent negative culture. 3

Antiseptic products and blinding
The two topical Investigational Medicinal Product (IMP) antiseptic agents used, 2% CHG-aqueous and 2% CHG-70% IPA, were specially manufactured under licence for this trial.Production, labelling and blinding of study packs containing paired bottles each containing 20 mL of IMP was as described. 3

Randomisation
Secure internet-based randomisation was performed as close to catheter insertion as possible by a research team member or trained clinician. 3The randomisation system used stratified block randomisation with allocation sequence generated by the senior trials statistician (LL).Blocks of size 4 and 8 were generated using Stata (V.13/SE for Windows).Stratification was by centre and gestational age at birth (<28 weeks and 28 +0 to 33 +6 weeks).Allocation was weighted 3:1 in favour of the 2% CHG-70% IPA IMP group to inform the primary objective of sample size calculation for a phase-III trial. 3

Interventions
The trial procedures have been published in detail. 3Trained clinical staff inserted and removed PCVCs according to the trial's protocol and working good clinical practice guidelines for catheter insertion and removal (online supplemental files 1 and 2).Specimens collected on catheter removal were: (1) two exit site skin swabs (ESSSs), one before and one after skin disinfection of insertion site using the same allocated IMP as at catheter insertion; (2) two ~1 cm long catheter segments, namely the tip plus a proximal segment taken approximately 1-2 cm distal to the former skin entry point; and (3) a peripheral BC (only if catheter removal was for suspected sepsis). 3

Catheter-related sepsis, catheter colonisation and catheterassociated sepsis
Our study had strict definitions for definite CRS, catheter colonisation and CAS (table 1, footnotes).

Microbiological and molecular analysis
Catheter segments, skin swabs, and BCs underwent routine culture and antibiotic sensitivities in our hospital microbiology laboratories.Bacterial growths from ESSS cultures were assessed semi-quantitatively. 21Culture-positive isolates were retained for whole genome sequencing, allowing for unequivocal diagnosis of CRS. 3

Primary outcome
Proportion of babies in the 2% CHG-70% IPA group with catheter colonisation, determined by at least one of the two catheter segments taken at catheter removal being bacterial culture positive.

Secondary outcomes Efficacy outcomes
(1) Proportion of infants with positive ESSSs (pre disinfection and post disinfection) at catheter removal; (2) number and type of culture-positive catheter segments at removal; (3) bacterial species identified on positive BC, ESSSs and catheter segments as typed by molecular methods (undertaken to prove concordance of paired blood and catheter isolates to a species level for definitive diagnosis of definite CRS); (4) proportion of infants with definite CRS in the period between catheter insertion and 48 hours post catheter removal; (5) proportion of infants with CAS in the period between catheter insertion and 48 hours post catheter removal; (6) rate of CRS per 1000 PCVC days; (7) rate of CAS per 1000 PCVC days; (8) rates of recruitment and retention; (9) views of parents and clinicians on factors affecting recruitment and retention; (10) proportion of infants completing the study with complete data for the primary outcome; and (11)  proportions of infants with missing data collection forms.

Safety outcomes
Skin condition and morbidity, assessed at catheter insertion and daily until 48 hours post catheter removal.A validated neonatal contact dermatitis scoring system was used, 22

Sample size and statistical analysis
A target sample size comprising ~93 babies having successfully inserted catheters would suffice to estimate the anticipated incidence of the primary outcome (20%) in the reference 2% CHG-70% IPA group with a 95% CI of 11% to 31%. 3 A statistical analysis plan was developed and approved by the Trial Steering Committee (TSC) chair by the end of enrolment (online supplemental file 3).This feasibility study is reported in accordance with the Consolidated Standards of Reporting Trials extension guidelines for randomised pilot and feasibility trials. 23

Data management
Outcome data were collected as described, 3 using study-specific forms.Data were transferred and stored in compliance with Good Clinical Practice (GCP) and Data Protection legislation. 3

Monitoring
The Sponsor's nominated representatives undertook regular monitoring visits during the course of the trial, according to a monitoring plan. 3

Pharmacovigilance, data and safety monitoring
Pharmacovigilance was conducted as described. 3The trial had a Data Monitoring Committee (DMC) and TSC with respective charters signed off by their independent chairs prior to first enrolment.The DMC met regularly before, during and at the end of the trial to review the protocol, compliance, safety and outcome data, including after the first 50 babies were enrolled. 3

Patient and public involvement
The study was developed with extensive parent and public input. 3Two lay TSC parent members assisted dissemination of a final summary report to parents of all participants.

Ethics and regulatory approvals
A clinical trial authorisation was granted by the responsible authority on 23rd October 2015 (MHRA reference: 13630/0009/001-0001).

RESULTS
Between March 2017 and July 2018, 207 infants were assessed for eligibility.116 were randomised of whom 88 were allocated 2% CHG-70% IPA and 28 were allocated 2% CHG-aqueous (figure 1).Table 2 presents baseline characteristics of all 114 babies who underwent attempted catheterisation.Additional details relating to catheterisation are provided (online supplemental table S1).

Efficacy outcomes Clinical and microbiological outcomes including primary outcome
One hundred and six babies were assessed for clinical and microbiological outcomes (figure 1).Table 3 shows individual results for the 31 babies who had at least one positive culture result isolated from culture of blood, ESSSs and catheter segments.Paired catheter segment culture results were available for 97 babies, losses mainly being due to repatriation of neonates to non-participating hospitals before catheter removal.The overall catheter colonisation rate was 5.2% (5/97).Of 79 babies allocated the 2% CHG-70% IPA antiseptic and successfully catheterised, 73 had paired catheter segments available and 3 babies had a colonised catheter at the time of removal, an incidence for the primary outcome of 4.1% (95% CI 0.9% to 11.5%).One baby in each group had definite CRS (2% CHG-70% IPA 1.5% (1/66) vs 2% CHG-aqueous
Paired bacterial isolates from relevant babies underwent whole genome sequencing for definitive speciation.Specimens of particular interest were blood and catheter isolates in the two CRS cases (ID numbers 15 and 26, table 3), and the blood and ESSS isolates in the two CAS cases (ID numbers 14 and 16, table 3).Genome sequencing confirmed identity and exact match of the CoNS species in both the CRS cases.Unfortunately, the paired BC isolates were not retained for the two CAS cases, so their typing and matching was not possible.

Recruitment, retention and factors affecting
Of 178 eligible infants, we approached the parents of 149 and 116 (77.9%) gave consent.The overall retention rate was 83.6% (online supplemental table S2).Voluntary feedback collected from parents who declined participation and clinicians' views on factors affecting recruitment are summarised (online supplemental table S3).

Study completion and completeness of data collection
The proportion of randomised infants with complete data for the proposed primary outcome of catheter colonisation was 97/116 (83.6%) (online supplemental table S2).Completeness of data collection forms was excellent, with only two forms missing (from babies who did not complete the study) (online supplemental table S4).

Safety outcomes
One hundred and fourteen babies who received IMP underwent a total of separate skin applications with allocated IMP (2% CHG-70% IPA, n=197; 2% CHG-aqueous n=77), comprising insertion and removal disinfections and applications that preceded failed catheterisation attempts (figure 1; online

Original research
supplemental tables S2 and S5).Safety data were obtained for all 114 babies (100%) who received allocated antiseptic, including for babies transferred before catheter removal.Table 4 summarises daily skin morbidity scores in the period between catheter insertion and 48 hours post catheter removal (or post antiseptic application when catheterisation unsuccessful).No baby had any serious or major chemical burn injury or moderate/ severe skin reaction recorded or requiring reporting after antiseptic application.A minority showed limited erythema (20/114; 17.5%); this appeared more common if catheterised in the first postnatal days and/or extremely preterm.Seven (6.1%) had limited skin breakdown/excoriation recorded (table 4).All skin morbidity was minor, self-limiting and resolved fully.None required special dressing or plastic surgical referral.

Adherence to protocol
There was good adherence for the intervention (online supplemental table S5) and no major protocol breaches.

Withdrawals
There were no study infant withdrawals (figure 1).

DISCUSSION
We successfully carried out a feasibility RCT to compare alcohol versus aqueous formulations of 2% CHG.This is the first RCT to evaluate these formulations specifically for skin disinfection before PCVC insertion in preterm neonates.We have demonstrated a very low primary outcome incidence rate of only 4.1% of catheters being colonised with potentially pathogenic bacteria at the time of removal when 2% CHG-70% IPA antiseptic was used for skin disinfection prior to catheterisation.Furthermore, no major antiseptic-related skin injury was reported after application of either formulation under our strict working guideline.We completed recruitment within a 16-month period and had good rates of compliance with study procedures.Completeness of data collection was excellent, and we gathered rigorous prospective safety data for skin integrity.The primary and all planned secondary objectives were achieved.The ARCTIC trial demonstrates that it would in principle be feasible to conduct a definitive multicentre trial comparing the same two antiseptics in a non-inferiority study.Our primary objective was to determine catheter colonisation rate in infants who received 2% CHG-70% IPA, to allow sample size calculation for a definitive efficacy study.Finding the catheter colonisation rate to be only 4.1% gave a much lower event rate than anticipated (~21%) at the outset. 3Modelling sample size for a definitive comparative non-inferiority study using the same primary outcome of catheter colonisation, detection of an absolute risk reduction of 2% would require ~n=3250 infants (90% power, two-sided significance level of 0.05).Assessing a composite clinical outcome of CRS+CAS instead: to detect an absolute risk reduction in catheter infections of 4% (from the combined incidence of CRS+CAS of 15% in our reference group down to 11%), we would need ~n=3400 (allowing for 10% loss-to-follow-up).For a non-inferiority hypothesis (to detect a non-inferiority margin of difference of no less than 4%), ~n=3700 would be needed (allowing for 10% loss-tofollow-up).So, while a definitive trial is feasible, these post hoc sample size calculations indicate that a very large trial would be needed.

Original research
The ~4% catheter colonisation rate seen in the ARCTIC trial reference group was much lower than the ~30% overall rate seen in our previous multicentre study that used much weaker strength (0.015% and 0.05%) CHG antiseptics. 1 This sevenfold reduction is probably multifactorial: while the stronger CHGplus-alcohol combined antiseptic trialled has likely played a major part, it is also likely that the rigorous methodology of catheter insertion and other good catheter care practices helped reduce catheter colonisation.We incorporated such practices into our study protocol to harmonise practices between sites and to maximise compliance with the elements of catheter care 'bundles' already collectively known to reduce catheter infection rates. 9 10he main limitation of our feasibility study is from the clinical perspective: the findings are inevitably limited for guiding current clinical practice for preferred antiseptic choice-for that requires a definitive large-scale RCT.Nevertheless, some trial findings may assist current practices.Our low outcome rate (~4%) of catheters colonised at removal after using 2% CHG-70% IPA antiseptic at catheterisation/pre-removal is a rigorous benchmark figure that other centres could reference to audit their own units' rates of catheter colonisation using the same or other locally preferred antiseptic formulations.We encourage this and suggest that a national audit or registry may provide useful data.Also, our rigorous prospective safety data collected through daily skin monitoring provide preliminary reassurance that both these two 'stronger' 2% antiseptic formulations of CHG can be safely applied on the skin of preterm babies if used under similar carefully controlled guidelines (online supplemental files 1 and 2).We therefore propose that both agents merit inclusion in catheter care bundles for preterm babies.5][26] We nevertheless share cautions about their wider use in the first few days postnatal in the lowest gestation babies (<26 weeks) when the burden of skin colonisation is usually lightest yet the risk of chemical injury is greatest. 18It would therefore presently seem prudent to use lower concentration alcohol-free CHG preparations in the first few postnatal days, for example, 0.2% chlorhexidine acetate, 27 although accepting the trade-off that rates of catheter sepsis may potentially then be higher.

Conclusion and future study
The data from the ARCTIC study suggest that both 2% CHGaqueous solution and 2% CHG-70% IPA can be used safely in preterm neonates when applied using a strict procedure to limit overexposure.Their use was associated with a large reduction in the risk of catheter colonisation by potentially harmful bacteria compared with historical rates using weaker preparations.A definitive trial is feasible, but based on the very low catheter colonisation rate or combined rate of CRS and CAS, a very large sample size is required.Newer agents such as octenidine 28 now require formal evaluation in preterm neonates.But with such low rates of catheter colonisation and sepsis, conducting any definitive efficacy RCT of antiseptics now poses a formidable challenge.Other ways to distinguish between disinfection agents may be needed, such as registry or real-world data-based assessments of safety and efficacy, or else snapshot audits involving a limited number of centres willing to adopt uniform strict protocols and standardised procedures for catheter care and sampling.

Figure 1
Figure 1 Study flow diagram.

Table 1
Summary efficacy outcomes for bacteriology and sepsis including primary outcome Primary outcome: 3/73 (4.1%) with 95% confidence interval of 0.9% to 11.5%.†Cathetercolonisation: a catheter that at the time of removal has either one or both segments culture positive.‡Definitecatheter-related sepsis: a peripheral BC plus any catheter segment (i.e.proximal and/or tip) positive with the same organism, based on bacterial culture, antibiotic sensitivity and molecular typing, from a neonate who had an indwelling PCVC and clinical signs of sepsis but no other focus of sepsis.§Catheter-associatedsepsis: clinical signs of sepsis and an accompanying positive BC in the period between catheter insertion and 48 hours post removal but with no other focus of sepsis and with both catheter segment cultures negative.BC, blood culture; CHG, chlorhexidine gluconate; PCVC, percutaneous central venous catheter.Arch Dis Child Fetal Neonatal Ed: first published as 10.1136/archdischild-2023-325871 on 31 October 2023.Downloaded from *

Table 2
Infant and maternal baseline characteristics

Table 4
Daily skin morbidity scores in the period between catheter insertion and 48 hours post catheter removal Scoring was performed at baseline, within 10-30 minutes of catheterisation, and then daily until 48 hours post catheter removal, including for any infants repatriated to another hospital with their PCVC still in situ.Skin integrity scoring was also recorded until 48 hours post antiseptic application in instances where catheterisation proved unsuccessful.Skin scores were graded as follows: